Climate Change Impacts and Adaptation in the Mining Sector · Climate Change and Risk Management:...
Transcript of Climate Change Impacts and Adaptation in the Mining Sector · Climate Change and Risk Management:...
Climate Change Impacts and Adaptation
in the Mining Sector Sean Capstick, Golder Associates
Climate Change and Risk Management: Infrastructure Case Studies
IAIA Sustainable Mega-Infrastructure and Impact Assessment
Climate Change Adaptation
2
Industry Recognition of the Problem
Mines are often located in areas
with extreme weather and
challenging conditions
ICMM identified a growing
awareness that a changing
climate and its impacts can
affect the mining industry
Report identifies potential
climate impacts and how mining
and metals companies can
evaluate risks
Provides available options for
adapting to climate change
impacts
3
Typical Mine Life Cycle
Exploration (1-10 years)
Design and Permitting
(2-3 years)
Construction (2 years aprox)
Production (2- 50+ years)
Closure (1-5 years)
Post Closure (5 years to perpetuity)
4
Incorporating Climate Change into Project Life
Cycle
5
Climate data is incorporated in most facets of Mining Projects and Infrastructure Design
Design is generally based on historic climate data
Foundation Design
Material Specification
Tailings Dam Design
Outflow structures
Dewatering Requirements
Power Requirements
Water Supply / Water Balance
Closure Design
Transportation
Risk Based Assessment Tools
December 23, 2015
6
Temperature Rain Snow Wind Mixed Events
Stormwater, Wastewater Treatment and
Collection SystemsY Y Y Y Y
Water Resource Systems Y Y Y N N
Ground Transportation N Y Y N Y
Buildings and Infrastructure N N N N Y
Environmental Compliance Y Y Y N Y
Biodiversity Y Y N N N
Public Infrastructure N N N N Y
Climate FactorInfrastructure Component
R = C x P
R = Risk
C = Consequence
P = Probability
Climatic Factors Infrastructure Components
Climate-Infrastructure
Interactions
Incorporating Climate Change in to ESIA’s
7
Case Study: Meliadine Mine, Rankin Inlet, NU,
Canada
Project located in Canadian
Arctic
Golder completed a ESIA in
2013
Climate Change impact
assessment was an important
Technical Supporting Document
Hearings held in Nunavut in
2014
Assessment of significance on
tailings design and bio-diversity
were of particular interest during
the review
8
Case Study: Iron Ore Mine, South Eastern
Guinea, West Africa
Project located in a mountain
range has an altitudinal gradient
of over 1,000 m from lowland to
summit
Surrounded by an area classified
under Guinean Law as a Strict
Nature Reserve (SNR)
Assessment of localized micro
climate and effects of changes to
topography and potential
impacts to biodiversity
9
Case Study: Copper Mine, Northern region of
Argentina
Project located at approximately
2,600 m asl in an arid area
Investigation of meteorological
trends that could affect the water
balance, especially at closure
Results showed that projected
increases in total precipitation
was within historical
observations, however pan
evaporation is projected to
increase
Availability of water identified as
an issue
10
Operations and Closure
11
Case Study: Vulnerably Assessment, Sudbury
INO ON, Canada
12
Climate-Related Risk: Adapting to What?
13
IPCC, 2013: Summary for Policymakers. In: Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of
the Intergovernmental Panel on Climate Change [Stocker, T.F., D. Qin, G.-K. Plattner, M. Tignor, S.K. Allen, J. Boschung, A. Nauels, Y. Xia, V. Bex and P.M. Midgley
(eds.)]. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA.
GCM Output – Scatter Plot
T↑ P↑
T↓ P ↑ T↓ P ↓
T ↑ P ↓ T↑ P↑
T↓ P ↑ T↓ P ↓
T ↑ P ↓
GCM Output – Cloud Graph
GCM Output – Cloud Graph
GCM Output – Cloud Graph
GCM Output – Cloud Graph
GCM Output – Histogram
The Future is Always Uncertain
Generating Climate (Precipitation)
Does Sum of Daily Precipitation = Monthly Precipitation? If No, Restart
If Yes,
Continue
Random
Sample
from
Distribution
May Precipitation
Water Management
December 23, 2015 22
Economic Models
23
Investment in
Infrastructure
$
Risk of Climate
Impacts
$
Planning for
Future React to impacts of climate
change
CBA to Identify Adaptation Uncertainties
24
No Action
Adaptation No Action
Low High
Adaptation Costs Coping Costs
Cost of Climate Risks
Refine Inputs
Summary of Results – 10 year
December 23, 2015 25
Summary of Results 40 year
December 23, 2015 26
Moving Forward
Climate Change Impact Assessments should:
Clearly document both baseline and future climate projections that
will be used in the assessment
Use a multi model and multiple concentration pathways analysis to
describe the range and uncertainties of the future climate projections
Clearly identify the Valued Components and climate interactions that
are to be considered in the assessment
Document the significance assessment for the identified interactions
Identify the proposed design features or adaptation measures
(mitigation measures) that are proposed
Better document Adaptive Management Strategies between coping
and adaptation and rational why one is preferred over the other
27